DE19722909A1 - Monitor with reflection free shade - Google Patents

Abstract

The screen of a monitor is shaded by a unit (4) that fits onto the monitor housing (1). The unit is produced with a tapered pyramid shape with a bellows form and of a material that has an optically absorbing inner surface such that there are not any reflections. The bellows has a tapered pyramid section.

Description

The invention relates to a glare-free Mo monitor with an electron beam screen and a screen surrounding it and the field-of-view housing.

When transferring images, such as in particular which is known from television technology Image information using electronic signals transmitted and in the receiver to an optical image composed in a grid. For this, an elec electron beam in the manner of an electron tube created, focus based on the control signals in hori distracted zontal and vertical directions and the transmitted image is created in a grid brought. The electron beam gives its energy to the screen and creates a glow there Point. The phosphors used here are of medium persistence d. H. sufficiently long, to despite the high speed of the scanning Electron emitter the comparatively sluggish men crept eye to produce a still picture and thereby reducing the flickering of the picture and on the other hand short enough to display the information of the Electron beam for a certain raster point to be able to follow almost indolently. Are there the modern screens with thin aluminum foils deposited through which the beam electrons go can penetrate, but on the other hand the Light reflects and in this way the light  density of the screen increases. For the production of the screen are fluorescent substances e.g. B. zinc sulfide, wherein by proportions of certain chemical compounds Color of fluorescent lighting can affect. Such picture tubes are not only in TV receivers but also in studios, in transfer offices points and OB vans for control and measuring tasks are used and are generally NEN called monitors, this term be interpreted very broadly in the sense of the registration should, so that each by electron beam to the light ten excited picture tube is to be understood by this. The quality of the optical image generated here does not depend solely on the fineness of the electron spotlights and the quality of the screen from son it is also determined by the lighting conditions in the space surrounding the monitor case. The brightness conditions in the viewing direction behind the monitor are affecting the contrast and thus on the subjectively perceived quality of the generated image. Secondly, from the outside light hitting the screen for viewing ter reflected, causing deterioration the optical image quality occurs. This effect is particularly pronounced in the modern, with an aluminum foil backed screens.

Proceeding from this, the invention has the Wei Development of such monitors to Task that the optical image quality a Undergoes improvement.  

This object is achieved according to the invention by an umbrella shaped like a truncated pyramid jacket of rectangular base and straight Axis, whose smaller footprint is slightly larger than the edge of the screen is and the over this base on the housing coaxial to the picture is fixed and the material of the Optically absorbing properties points.

The main idea of the invention is the An bringing an umbrella in the shape of a pyra middle stump jacket on the housing of the monitor such that the screen one towards the Be trachten results in widening shaft that the screen remains unchanged and looks freely bar leaves. The axis of the truncated pyramid is in essentially the normal to the screen d. H. of the The truncated pyramid has a straight axis that extends thus de running perpendicular to the base and coaxial with the screen normal is directed. There arises on the Be trachten to widening shaft, at its schma floor space that is far from the viewer the monitor screen is located. The view ter is in front of the larger and thus picture base of the truncated pyramid remote from the screen. The expanding shape of the shaft causes that from the room behind the monitor to the viewer light that is propagating is recorded and cannot get into the field of vision, so here due to possible irritation of the viewer under  bound and the contrast of itself on the monitor located image due to the suppression of the Background lighting is improved.

It should be made clear that the size of the Base areas of the truncated pyramid only marginally differ from each other and in the asymptotic Borderline case can even be the same. The material of the screen shows optical absorption properties, so that the impinging Light experiences extensive absorption. Clear is that complete absorption though however desirable to achieve the desired Purpose is not always required.

The other function of the screen is that the light coming from outside due to the (extensive) absorption not in the by the Screen limited interior space can get where distracting reflections on the screen or on the In could form the surface of the screen. The Ab Sorption also means that the image outgoing light on the inner surface of the Screen can not be reflected, which is just if disturbance to the image quality could lead.

As a result, a monitor arrangement is proposed gene, a noticeable improvement in image quality makes available to the viewer.

Due to the different lighting conditions every job that also changes during the Ta change, it is desirable to have one for each users optimal adaptation to the current len condition. In one embodiment  it is therefore proposed that the screen in Rich tion of its axis is collapsible, so that by continuously increasing or decreasing the Height of the truncated pyramid of users the poss possibility of individual adaptation to the respective light conditions. In extreme cases it can the screen completely on the housing of the picture umbrella are pushed so that the same Ratios as in the previously known monitors result without the screen according to the invention.

The preferred technical implementation is the Umbrella made from a bellows, which itself then folded or unfolded in a known manner.

It has already been explained that the material of the Optically absorbing properties points, d. H. that the incident radiation at least at least partially - ideally a complete - Undergoes absorption. In a concrete design device is proposed, this optical Eigen to achieve by the fact that on the inner surface surface of the screen an optically absorbing layer is applied. In this way, on the one hand, that a wide area within the truncated pyramid absorption of the rays is achieved and at the same time also those coming from outside Radiate at the coating at the latest be absorbed.

The ideal case of complete absorption hits fender radiation is called a "black body" draws in which all radiation is absorbed  becomes and thus the reflected portion to zero becomes. A good approximation to this, never in the real world achievable "black body" can be through Use of black colored shield material and / or by applying a black color reach layer in a simple way.

Finally, there is the releasable attachment of the Screen provided on the monitor. Certain situation like when transporting the monitor, leave it on shows appear to take off the screen d. H. a detachable fastening between screen and monitor to provide.

Further details, features and advantages of the Er can be found in the following description Take part of the exercise, in the drawing an embodiment in principle Dar position is reproduced.

A monitor ( 1 ) is shown, the screen ( 2 ) of which runs perpendicular to the plane of the drawing, a screen ( 3 ) being attached to the right end of the monitor ( 1 ). It is of the shape of a truncated pyramid, the axis ( 4 ) of which runs parallel to the normals of the screen ( 2 ). The smaller base area of the truncated pyramid of the screen ( 3 ) is attached to the housing of the monitor ( 1 ) and the screen ( 2 ) all around. It is ensured that the area of the screen ( 2 ) remains uncovered and its visibility through the screen ( 3 ) is not impaired. The larger base area of the screen ( 2 ) points towards the viewer ( 5 ). The result is that the screen provides a view of the screen ( 2 ) in the manner of a shaft tapering towards the screen. Here, the screen ( 3 ) is designed as a bellows, so that its axis can be shortened or enlarged accordingly to the individual needs of the user.

As a result, the screen brings about a substantial improvement in the optical quality presented to the viewer of the representation reproduced on the screen ( 2 ) by suppressing disruptive influences of incident and / or reflecting light.

Claims (6)

1. Glare-free monitor with a screen rastered by an electron beam and a housing surrounding and sparing the field of view, characterized by a screen ( 3 ) with the shape of a truncated pyramid sheath of rectangular base and straight axis, the smaller base of which is slightly larger than the edge of the Screen is and is attached to this housing on the housing coaxial to the normal screen and the material of the screen ( 2 ) has optically from sorbing properties. 2. Monitor according to claim 1, characterized in that the screen ( 3 ) in the direction of the pyramid axis ( 4 ) can be pushed together. 3. Monitor according to claim 2, characterized by a bellows as a screen ( 2 ). 4. Monitor according to any one of claims 1-3, characterized in that the inner surface of the screen ( 2 ) is designed with an optically absorbing layer. 5. Monitor according to any one of claims 1-4, characterized by a black coloring of the material of the screen ( 2 ). 6. Monitor according to any one of claims 1-5, characterized by a detachable fastening of the screen mes on the monitor ( 1 ).